Interface repairing for AA5083/T2 copper explosive composite plate by friction stir processing

Jian WANG; Xiao wei WANG; Bo LI; Cheng CHEN; Xiao feng LU

doi:10.1016/S1003-6326(21)65677-7

Interface repairing for AA5083/T2 copper explosive composite plate by friction stir processing

Jian WANG, Xiao wei WANG, Bo LI, Cheng CHEN, Xiao feng LU

School of Mechanical and Power Engineering

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

Multi-pass friction stir processing (M-FSP) was performed to repair the interface defects of AA5083/T2 copper explosive composite plates. The interface morphology and its bonding mechanism were explored. The results show that higher rotation speed and lower transverse speed produce more heat generated during FSP. The defect-free and good mechanical properties of the AA5083/T2 copper composite plate can be obtained under the condition of the rotation speed of 1200 r/min, the transverse speed of 30 mm/min and the overlap of 2/24. Moreover, M-FSP changes the interface bonding mechanism from metallurgical bonding to vortex connection, improving the bonding strength of composite plate, which can guarantee the repairing quality of composite plates.

Original language	English
Pages (from-to)	2585-2596
Number of pages	12
Journal	Transactions of Nonferrous Metals Society of China (English Edition)
Volume	31
Issue number	9
DOIs	https://doi.org/10.1016/S1003-6326(21)65677-7
State	Published - Sep 2021

Keywords

aluminum/copper composite plate
friction stir processing
interface repairing
mechanical properties

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10.1016/S1003-6326(21)65677-7

Cite this

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title = "Interface repairing for AA5083/T2 copper explosive composite plate by friction stir processing",

abstract = "Multi-pass friction stir processing (M-FSP) was performed to repair the interface defects of AA5083/T2 copper explosive composite plates. The interface morphology and its bonding mechanism were explored. The results show that higher rotation speed and lower transverse speed produce more heat generated during FSP. The defect-free and good mechanical properties of the AA5083/T2 copper composite plate can be obtained under the condition of the rotation speed of 1200 r/min, the transverse speed of 30 mm/min and the overlap of 2/24. Moreover, M-FSP changes the interface bonding mechanism from metallurgical bonding to vortex connection, improving the bonding strength of composite plate, which can guarantee the repairing quality of composite plates.",

keywords = "aluminum/copper composite plate, friction stir processing, interface repairing, mechanical properties",

author = "Jian WANG and WANG, {Xiao wei} and Bo LI and Cheng CHEN and LU, {Xiao feng}",

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T1 - Interface repairing for AA5083/T2 copper explosive composite plate by friction stir processing

AU - WANG, Jian

AU - WANG, Xiao wei

AU - LI, Bo

AU - CHEN, Cheng

AU - LU, Xiao feng

PY - 2021/9

Y1 - 2021/9

N2 - Multi-pass friction stir processing (M-FSP) was performed to repair the interface defects of AA5083/T2 copper explosive composite plates. The interface morphology and its bonding mechanism were explored. The results show that higher rotation speed and lower transverse speed produce more heat generated during FSP. The defect-free and good mechanical properties of the AA5083/T2 copper composite plate can be obtained under the condition of the rotation speed of 1200 r/min, the transverse speed of 30 mm/min and the overlap of 2/24. Moreover, M-FSP changes the interface bonding mechanism from metallurgical bonding to vortex connection, improving the bonding strength of composite plate, which can guarantee the repairing quality of composite plates.

AB - Multi-pass friction stir processing (M-FSP) was performed to repair the interface defects of AA5083/T2 copper explosive composite plates. The interface morphology and its bonding mechanism were explored. The results show that higher rotation speed and lower transverse speed produce more heat generated during FSP. The defect-free and good mechanical properties of the AA5083/T2 copper composite plate can be obtained under the condition of the rotation speed of 1200 r/min, the transverse speed of 30 mm/min and the overlap of 2/24. Moreover, M-FSP changes the interface bonding mechanism from metallurgical bonding to vortex connection, improving the bonding strength of composite plate, which can guarantee the repairing quality of composite plates.

KW - aluminum/copper composite plate

KW - friction stir processing

KW - interface repairing

KW - mechanical properties

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JO - Transactions of Nonferrous Metals Society of China (English Edition)

JF - Transactions of Nonferrous Metals Society of China (English Edition)

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Interface repairing for AA5083/T2 copper explosive composite plate by friction stir processing

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